Tropical Weather & Hurricanes Chapter 15 April 14, 2009
Tropical meteorology Tropics characterized by seasonal wet and drier periods- wet when sun is nearly overhead at noon and inter-tropical convergence zone (ITCZ) is near area Remember ITCZ follows sun south in winter, north in summer Tropical winds usually from east, NE, or SE Surface pressure gradients small look at streamlines to see features, such as areas of convergence and divergence Weak trough of low pressure called tropical wave or easterly wave
Easterly or tropical waves Wavelength of tropical wave about 2500 kmtravel west to east at 10 20 knots Diverging surface air and sinking at western side of wave fair weather Converging surface air, rising motion, showers and t-storms on eastern side Some easterly waves become hurricanes
Easterly wave AKA tropical wave
Tropical cyclones Tropical cyclones is general term for strong storms of tropical strength wind winds greater than 64 knots (74 mph) In north Atlantic and eastern north Pacific Ocean, tropical cyclones called hurricanes Western North Pacific called typhoon India - cyclone Australia tropical cyclone
Hurricane Anatomy Spiral rain bands swirl out from storm center Winds increase toward center of storm Winds light, clouds few within eye Eyewall ring of intense thunderstorms Very low pressure at center of storm Moist air flows toward storm center - rises adjacent to eye- vigorous thunderstorms fed by latent heat High pressure aloft - strong divergence (outflow)- sinking in eye
Hurricane features
Surface winds flow counter clockwise Storm spins counter clockwise
Hurricane formation Hurricanes form where surface water is warm- usually > 80 F, winds are light, deep layer of high humidity- summer & early fall Need surface air to converge which produces cyclonic motion (except at equator where Coriolis force=0) Winds converge along ITCZ, if tropical wave present can become hurricane (most waves don t) Many Atlantic hurricanes traced to tropical waves formed over Africa Can also have convergence along pre-existing disturbance moving into tropics from mid-latitudes with upper trough
Hurricane formation Trade wind inversion formed by subsidence on Trade wind inversion formed by subsidence on south side of subtropical high inhibits t-storms and hurricane formation Wind shear not conducive to hurricanesdisrupts organized convection pattern and disperses heat and moisture El Nino- stronger winds aloft in Atlantic fewer hurricanes, warm Pacific more hurricanes La Nina (cool water eastern Pacific) weak, easterly winds in tropical Atlantic- more hurricanes
Hurricane Formation Energy comes from transfer of sensible heat and latent heat from warm surface water Cold air aloft such as from mid-latitude trough can cause instability and start convection- latent heat warms air column and creates upper highdivergence aloft falling surface pressure cyclonic circulation starts Winds cause rough seas, more friction that causes more convergence into surface low, more rising air, latent heat hurricane If hurricane moves into area where depth of warm water is shallow, waves from strong winds bring up cool water, weaken storm Deep layer of warm water, hurricane may strengthen
Hurricane stages Start as tropical disturbance or tropical wave slight circulation associated with thunderstorm cluster Tropical depression, winds 20 34 knots Tropical storm winds 35-64 knots Hurricane > 64 knots
Saffir- Simpson scale
Hurricane Effects Flooding causes most damage from hurricanes- high waves (swells), winds pushing water onshore, heavy rains Low pressure causes sea surface to rise Storm surge combination of factors causing several meters rise in ocean level, inundating low-lying areas Tornadoes generated by some hurricanes Typical movement W-NW, then caught by subtropical high circulation, move north, then affected by westerlies, move NE Average 6 North Atlantic hurricanes/year, 8 eastern North Pacific (off Mexico)
Typical hurricane tracks
Effect of hurricane movement on wind speed distribution